Course Structure Overview
The curriculum for the Diploma In Mechanical Engineering program is designed to provide a comprehensive understanding of mechanical systems and engineering principles. The program spans three years, divided into six semesters, with each semester consisting of core courses, departmental electives, science electives, and laboratory sessions. The structure ensures a progressive build-up of knowledge and skills, preparing students for advanced specialization and industry readiness.
| Year | Semester | Course Code | Course Title | Credit Structure (L-T-P-C) | Prerequisites |
|---|---|---|---|---|---|
| Year 1 | Semester 1 | M101 | Engineering Mathematics I | 3-1-0-4 | None |
| Year 1 | Semester 1 | M102 | Engineering Physics | 3-1-0-4 | None |
| Year 1 | Semester 1 | M103 | Basic Electrical Engineering | 3-1-0-4 | None |
| Year 1 | Semester 1 | M104 | Applied Mechanics | 3-1-0-4 | None |
| Year 1 | Semester 1 | M105 | Computer Programming | 3-1-0-4 | None |
| Year 1 | Semester 1 | M106 | Workshop Practice | 0-0-3-1 | None |
| Year 1 | Semester 2 | M201 | Engineering Mathematics II | 3-1-0-4 | M101 |
| Year 1 | Semester 2 | M202 | Engineering Chemistry | 3-1-0-4 | None |
| Year 1 | Semester 2 | M203 | Electrical Machines | 3-1-0-4 | M103 |
| Year 1 | Semester 2 | M204 | Strength of Materials | 3-1-0-4 | M104 |
| Year 1 | Semester 2 | M205 | Fluid Mechanics | 3-1-0-4 | M104 |
| Year 1 | Semester 2 | M206 | Material Science | 3-1-0-4 | None |
| Year 2 | Semester 3 | M301 | Engineering Mathematics III | 3-1-0-4 | M201 |
| Year 2 | Semester 3 | M302 | Thermodynamics | 3-1-0-4 | M204 |
| Year 2 | Semester 3 | M303 | Mechanics of Machines | 3-1-0-4 | M204 |
| Year 2 | Semester 3 | M304 | Manufacturing Processes | 3-1-0-4 | M206 |
| Year 2 | Semester 3 | M305 | Heat Transfer | 3-1-0-4 | M205 |
| Year 2 | Semester 3 | M306 | Design of Machine Elements | 3-1-0-4 | M303 |
| Year 2 | Semester 4 | M401 | Engineering Mathematics IV | 3-1-0-4 | M301 |
| Year 2 | Semester 4 | M402 | Control Systems | 3-1-0-4 | M303 |
| Year 2 | Semester 4 | M403 | Production Engineering | 3-1-0-4 | M304 |
| Year 2 | Semester 4 | M404 | Computer Aided Design | 3-1-0-4 | M205 |
| Year 2 | Semester 4 | M405 | Finite Element Analysis | 3-1-0-4 | M401 |
| Year 2 | Semester 4 | M406 | Engineering Economics | 3-1-0-4 | M201 |
| Year 3 | Semester 5 | M501 | Advanced Thermodynamics | 3-1-0-4 | M302 |
| Year 3 | Semester 5 | M502 | Advanced Manufacturing | 3-1-0-4 | M304 |
| Year 3 | Semester 5 | M503 | Robotics and Automation | 3-1-0-4 | M402 |
| Year 3 | Semester 5 | M504 | Energy Systems | 3-1-0-4 | M302 |
| Year 3 | Semester 5 | M505 | Materials Testing | 3-1-0-4 | M206 |
| Year 3 | Semester 5 | M506 | Project I | 0-0-6-3 | M501 |
| Year 3 | Semester 6 | M601 | Industrial Training | 0-0-12-6 | M506 |
| Year 3 | Semester 6 | M602 | Project II | 0-0-12-6 | M506 |
The department's philosophy on project-based learning is centered around fostering innovation, creativity, and practical application of theoretical knowledge. Students are encouraged to work on real-world engineering challenges, often in collaboration with industry partners, to develop solutions that address current technological and societal needs. The mandatory mini-projects, which begin in the second year, are designed to introduce students to the research process, problem-solving methodologies, and teamwork skills essential for engineering practice. The final-year thesis/capstone project is a comprehensive endeavor that integrates all aspects of the curriculum, allowing students to demonstrate their mastery of mechanical engineering principles and their ability to conduct independent research or design work. Students select projects based on their interests and career aspirations, working closely with faculty mentors who guide them through the process of research, design, and implementation.
Advanced Departmental Elective Courses
Advanced departmental elective courses are designed to provide students with specialized knowledge and skills in emerging areas of mechanical engineering. These courses are offered in the final two semesters and include topics such as Advanced Thermodynamics, Advanced Manufacturing, Robotics and Automation, Energy Systems, and Materials Testing. The learning objectives of these courses are to deepen students' understanding of complex engineering concepts, enhance their analytical and design capabilities, and prepare them for advanced research or industry roles. For example, the course on Advanced Thermodynamics focuses on the application of thermodynamic principles to complex systems, including renewable energy technologies and power generation systems. The course on Robotics and Automation explores the integration of mechanical, electrical, and computer systems to create autonomous machines and automated processes. These courses are taught by faculty members who are actively involved in research and industry collaborations, ensuring that students receive cutting-edge knowledge and insights.
Mini-Projects and Capstone Project
The mini-projects are integral to the curriculum, providing students with early exposure to research and design challenges. These projects are typically completed in the second and third years and involve small teams working under the guidance of faculty mentors. The scope of these projects includes designing and building mechanical systems, conducting experiments, and analyzing data. The evaluation criteria include project documentation, presentation skills, and the quality of the final deliverable. The final-year thesis/capstone project is a more extensive endeavor, requiring students to conduct independent research or design work on a topic of their choice. Students must submit a detailed project report, present their work to a panel of faculty members, and defend their findings. The project selection process involves students submitting proposals that are reviewed by faculty mentors, who help guide students toward suitable topics and research areas. The faculty mentors are selected based on their expertise and availability, ensuring that students receive high-quality guidance throughout their project journey.